Mathematics – Logic
Scientific paper
Feb 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001oleb...31..157w&link_type=abstract
Origins of Life and Evolution of the Biosphere, v. 31, Issue 1/2, p. 157-165 (2001).
Mathematics
Logic
3
Cyanogen, Interstellar Molecules, Protoplanetary Disks, Protostars
Scientific paper
A reliable model for the composition and evolution of interstellar ices in regions of active star formation is fundamental to our quest to determine the organic inventory of planetesimals in the early Solar System. This has become a realistic goal since the launch of the Infrared Space Observatory, which provides a facility for infrared spectroscopy unhindered by telluric absorption over the entire spectral range of vibrational modes in solids of exobiological interest. Interstellar molecules detected in the solid phase to date include H__2O, NH_3, CO, CO_2, CH_3OH, CH_4, H_2CO, OCS and HCOOH, together with a C≡N-bonded absorber generically termed `XCN'. In this article, we focus on cosmic synthesis of CN-bearing species, as this important class of prebiotic molecules may not have formed endogenously in significant quantities on early Earth if conditions were not highly reducing. Experiments in which interstellar ice analogs are subject to UV photolysis or energetic ion bombardment yield CN-rich residues with a spectral signature that matches a corresponding feature observed in young protostars enshrouded in dust and gas. CN-bearing species are also present in cometary ices, with a combined abundance comparable to the lower end of the range observed in protostars. Energetic processing of interstellar ices is thus a viable and potentially significant source of CN compounds in protoplanetary disks.
Gibb Erika Lynne
Nummelin Albert
Whittet Doug C. B.
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